Publications and Theses
Patents
|
German Patent Application DE 10 2023 131 706 K. Everschor-Sitte, A. Pignedoli, B. Dörschel pending |
|
German Patent Application DE 10 2023 131 171 |
|
European Patent Application EP3751472A1 International Patent Application WO2020EP66120 (2019), EP000003751472A1 J. Nothhelfer, K. Hals, K. Everschor-Sitte, M. Rizzi pending |
Preprints & Submitted Manuscripts
|
78. Numerical Calculation of the Hopf Index for 3D Magnetic Textures |
|
77. PRCpy: A Python Package for Processing of Physical Reservoir Computing |
|
76. Reconstructing micro-magnetic vector fields based on topological charge distributions via generative neural network systems |
|
75. Neuromorphic Spintronics |
|
74. Workshop Report 2024, 18 Mini-Workshop: Mathematics of Entropic AI in the Natural Sciences S. Gerber, I. Horenko, R. Klein, T. O'Kane DOI: 10.14760/OWR-2024-18 |
|
73. Chromatin Capture Upsampling Toolbox - CCUT: A Versatile and unified Framework to Train Your Chromatin Capture Deep Learning Models S. Sys, A. Ceron-Noriega, A. Kerber, S. Weißbach, S. Schweiger, M. Wand, K. Everschor-Sitte, and S. Gerber bioRxiv 2024.05.29.596528 |
|
*72. Beating Fabry-Pérot interference pattern in a magnonic scattering junction in the graphene quantum Hall ferromagnet J. Atteia, F. Parmentier, P. Roulleau, M. O. Goerbig arXiv:2204.12795 |
Publications 2024
|
71. Neuromorphic overparameterisation and few-shot learning in multilayer physical neural networks K. Stenning, J. Gartside, L. Manneschi, C. Cheung, T. Chen, A. Vanstone, J. Love, H. Holder, F. Caravelli, H. Kurebayashi, K. Everschor-Sitte, E. Vasilaki, and W. Branford Nature Communications 15, 7377 (2024) or arXiv:2211.06373 |
|
70. Revealing ultrafast domain wall motion in Mn2Au through permalloy capping S. Jenkins, T. Wagner, O. Gomonay, and K. Everschor-Sitte Physical Review B 109, 224431 (2024) or arXiv:2311.04305 |
|
69. Topological magnetic and ferroelectric systems for reservoir computing UDE press release |
| 68. Manipulating vortices with domain walls in superconductor-ferromagnet heterostructures S. Díaz, J. Nothhelfer, K. Hals, K. Everschor-Sitte Physical Review B 109, L201110 (2024) or arXiv:2310.06866 |
| 67. Spacetime magnetic hopfions: from internal excitations and braiding of skyrmions R. Knapman, T. Tausendpfund, S. Díaz, K. Everschor-Sitte Communications Physics 7, 151 (2024) or arXiv:2305.07589 Simulation Scripts and Data |
|
66. Rechnen mit magnetischen Wirbeln K. Everschor-Sitte, R. Msiska, A. Majumdar Physik in unserer Zeit 55, 183 (2024) |
|
65. Roadmap for unconventional computing with nanotechnology G. Finocchio, J. Incorvia, J. Friedman, Q. Yang, A. Giordano, J. Grollier, H. Yang, F. Ciubotaru, A. Chumak, A. Naeemi, S. Cotofana, R. Tomasello, C. Panagopoulos, M. Carpentieri, P. Lin, G. Pan, J. Yang, A. Todri-Sanial, G. Boschetto, K. Makasheva, V. Sangwan, A. Trivedi, M. Hersam, K. Camsari, P. McMahon, S. Datta, B. Koiller, G. Aguilar, G. Temporão, D. Rodrigues, S. Sunada, K. Everschor-Sitte, , H. Takesue, M. Di Ventra, Y. Pershin, S. Mukhopadhyay, K. Roy, I. Wang, W. Kang, Y. Zhu, B. Kaushik, J. Hasler, S. Ganguly, A. Ghosh, W. Levy, V. Roychowdhury, and S. Bandyopadhyay. Nano Futures 8, 012001 (2024) or arXiv:2301.06727 |
|
64. Focus issue on Topological Solitons for Neuromorphic Systems D. Meier, J. Iñiguez, D. Rodrigues, K. Everschor-Sitte Neuromorphic Computing and Engineering 4, 010202 (2024) |
Publications 2023
|
63. Spatial analysis of physical reservoir computers J. Love, R. Msiska, J. Mulkers, G. Bourianoff, J. Leliaert, K. Everschor-Sitte Physical Review Applied 20, 044057 (2023) or arXiv:2108.01512 |
|
62. Voltage-Controlled High-Bandwidth Terahertz Oscillators Based On Antiferromagnets M. A. Lund, D. Rodrigues, K. Everschor-Sitte, K. Hals Physical Review Letters 131, 156704 (2023) or arXiv:2210.01529 |
|
61. Perspective on unconventional computing using magnetic skyrmions O. Lee, R. Msiska, M. A. Brems, M. Kläui, H. Kurebayashi, K. Everschor-Sitte Applied Physics Letters 122, 260501 (2023) or arXiv:2303.00708
Editor's Pick. |
|
60. Audio Classification with Skyrmion Reservoirs R. Msiska, J. Love, J. Mulkers, J. Leliaert, K. Everschor-Sitte Advanced Intelligent Systems 5, 2200388 (2023) or arXiv:2209.13946 IDW Press Release and UDE Press release . |
|
59. The 2022 Applied Physics by Pioneering Women: A Roadmap B. Abad, K. Alberi, K. Ayers, S. Badhulika, C. Ban, H. Béa, F. Beron, J. Cairney, J. Chang, C. Charles, M. Creatore, H. Dong, J. Du, R. Egan, K. Everschor-Sitte, C. Foley, A. Fontcuberta i Morale, M. Jung, H. Kim, S. Kurtz, J. Lee, D. Leitao, K. Lemmer, A. Marschilok, B. Mitu, B. Newman, R. Owens, A. Pappa, Y. Park, M. Peckham, L. Rossi, S. Shim, S. Siddiqui, J. Son, S. Spiga, S. Tsikata, E. Vianello, K. Wilson, H. Yuasa, I. Zardo, I. Zenyuk, Y. Zhang, Y. Zhao Journal of Physics D: Applied Physics 56, 073001 (2023) |
|
*58. Higher-order magnetic anisotropy in soft-hard magnetic materials N. Binh, S. Jenkins, S. Ruta, R. Evans, R. Chantrell Physical Review B 107, L041410 (2023) or arXiv:2210.07875 |
Publications 2022
|
57. Sein oder Nichtsein? D. Rodrigues und K. Everschor-Sitte Physik Journal 11/2022, page: 20/21 |
|
56. Steering Majorana braiding via skyrmion-vortex pairs: A scalable platform J. Nothhelfer, S. Díaz, S. Kessler, T. Meng, M. Rizzi, K. Hals, and K. Everschor-Sitte Physical Review B 105, 224509 (2022) or arXiv:2110.13983 |
|
55. Nonzero Skyrmion Hall Effect in Topologically Trivial Structures R. Msiska, D. Rodrigues, J. Leliaert and K. Everschor-Sitte Physical Review Applied 17, 064015 (2022) or arXiv:2110.07063 |
|
54. Skyrmion pinning energetics in thin film systems R. Gruber, J. Zázvorka, M. Brems, D. Rodrigues, T. Dohi, N. Kerber, B. Seng, M. Vafaee, K. Everschor-Sitte, P. Virnau and M. Kläui Nature Communications 13, 3144 (2022) or arXiv:2201.01618 |
|
53. Dzyaloshinskii-Moriya induced spin-transfer torques in kagome antiferromagnets D. Rodrigues, A. Salimath, K. Everschor-Sitte and K. Hals Physical Review B 105, 174401 (2022) or arXiv:2112.14504 |
| *52. The Magnetic Genome of Two-Dimensional van der Waals Materials Q. Wang, A. Bedoya-Pinto, M. Blei, A. Dismukes, A. Hamo, S. Jenkins, M. Koperski, Y. Liu, Q. Sun, E.Telford, H. Kim, M. Augustin, U. Vool, J. Yin, L. Li, A. Falin, C. Dean, F. Casanova, R. Evans, ̀ M. Chshiev, A. Mishchenko, C. Petrovic, R. He, L. Zhao, A. Tsen, B. Gerardot, M. Brotons-Gisbert, Z. Guguchia, X. Roy, S. Tongay, Z. Wang, M. Hasan, J. Wrachtrup, A. Yacoby, A. Fert, S. Parkin, K. Novoselov, P. Dai, L. Balicas and E. Santos American Chemical Society Nano 16, 5 (2022) |
*51. Observation of fractional spin textures in a Heusler material J. Jena, B. Göbel, T. Hirosawa, S. Díaz, D. Wolf, T. Hinokihara, V. Kumar, I. Mertig, C. Felser, A. Lubk, D. Loss and S. Parkin Nature Communications 13, 2348 (2022) |
|
| *50. Laser-Controlled Real- and Reciprocal-Space Topology in Multiferroic Insulators T. Hirosawa, J. Klinovaja, D. Loss and S. Díaz Physical Review Letters 128, 037201 (2022) or arxiv:2108.06535 |
Publications 2021
|
49. Der Quanten-Twist S. Díaz and K. Everschor-Sitte Physik Journal 11/2021, page: 20 |
|
48. Readout of an antiferromagnetic spintronics systems by strong exchange coupling of Mn2Au and Permalloy S. P. Bommanaboyena, D. Backes, L. S. I. Veiga, S. S. Dhesi, Y. R. Niu, B. Sarpi, T. Denneulin, A. Kovacs, T. Mashoff, O. Gomonay, J. Sinova, K. Everschor-Sitte, D. Schönke, R. M. Reeve, M. Kläui, H.-J. Elmers, M. Jourdan Nature Communications 12, 6539 (2021) or arXiv:2106.02333 |
|
47. Scalable computational measures for entropic detection of latent relations and their applications to magnetic imaging I. Horenko, D. Rodrigues, T. O’Kane, K. Everschor-Sitte Communications in Applied Mathematics and Computation Science 16, 2 (2021) or arXiv:1907.04601 |
|
46. Spin-Wave Driven Bidirectional Domain Wall Motion in Kagome Antiferromagnets D. Rodrigues, A. Salimath, K. Everschor-Sitte and K. Hals Physical Review Letters 127, 157203 (2021) or arXiv:2104.10460 Featured as PRL Editors’ Suggestion. |
45. Current-induced H-shaped-skyrmion creation and their dynamics in the helical phase R. Knapman, D. Rodrigues, J. Masell, K. Everschor-Sitte Journal of Physics D: Applied Physics 54, 404003 (2021) or arXiv:2105.06859 |
|
44. Nonlinear dynamics of topological ferromagnetic textures for frequency multiplication D. Rodrigues, J. Nothhelfer, M. Mohseni, R. Knapman, P. Pirro, K. Everschor-Sitte Physical Review Applied 16, 014020 (2021) or arXiv:2012.11481
We note that, in this publication, the numerical values of the frequencies are missing a factor of 2π. For example, where a frequency ω is applied, the field in the micromagnetics script is ∼cos(2πωt) instead of cos(ωt). |
|
43. Current-Induced Dynamics of Chiral Magnetic Structures: Creation, Motion, and Applications J. Masell and K. Everschor-Sitte Book chapter in Chirality, Magnetism and Magnetoelectricity, Springer, Pages 147-181 (2021) or arXiv:2004.13535 |
|
42. A deeper look into natural sciences with physics-based and data-driven measures D. Rodrigues, K. Everschor-Sitte, S. Gerber and I. Horenko iScience 24, 3 (2021) |
|
|
41. The promise of spintronics for unconventional computing G. Finocchio, M. Di Ventra, K. Y. Camsari, K. Everschor-Sitte, P. K. Amiri, Z. Zeng Journal of Magnetism and Magnetic Materials 521, 167506 (2021) or arXiv:1910.07176 |
40. Reliability of genomic variants across different next-generation sequencing platforms and bioinformatic processing pipelines S. Weißbach, S. Sys, C. Hewel, H. Todorov, S. Schweiger, J. Winter, M. Pfenninger, A. Torkamani, D. Evans, J. Burger, K. Everschor-Sitte, H. May-Simera, S. Gerber BMC Genomics 22, 62 (2021) |
|
|
*39. Majorana bound states induced by antiferromagnetic skyrmion textures S. Díaz, J. Klinovaja, D. Loss and S. Hoffman Physical Review B 104, 214501 (2021) or arXiv:2102.03423 |
Publications 2020
| 38. Large Surface Magnetization in Noncentrosymmetric Antiferromagnets M. A. Lund, K. Everschor-Sitte and K. Hals Physical Review B 102, 180412(R) (2020) or arXiv:2006.10435 |
| 37. Reservoir Computing with Random Skyrmion Textures D. Pinna, G. Bourianoff, K. Everschor-Sitte Physical Review Applied 14, 054020 (2020) or arXiv:1811.12623 |
| 36. The 2020 Magnetism Roadmaps E. Y. Vedmedenko, R. K. Kawakami, D. D. Sheka, P. Gambardella, A. Kirilyuk, A. Hirohata, C. Binek, O. Chubykalo-Fesenko, S. Sanvito, B. J. Kirby, J. Grollier, K. Everschor-Sitte, T. Kampfrath, C. Y. You and A. Berger Journal of Physics D: Applied Physics 53, 453001 (2020) |
|
35. The 2020 Skyrmionics Roadmap C. Back, V. Cros, H. Ebert, K. Everschor-Sitte, A. Fert, M. Garst, T. Ma, S. Mankovsky, T. Monchesky, M. Mostovoy, N. Nagaosa, S. Parkin, C. Pfleiderer, N. Reyren, A. Rosch, Y. Taguchi, Y. Tokura, K. von Bergmann and J. Zang Journal of Physics D: Applied Physics 53, 363001 (2020) or arXiv:2001.00026 |
| 34. Spin-transfer torque driven motion, deformation, and instabilities of magnetic skyrmions at high currents J. Masell, D. Rodrigues, B. F. McKeever and K. Everschor-Sitte Physical Review B 101, 214428 (2020) or arXiv:2004.00450 |
| 33. Facilitating domain wall injection in magnetic nanowires by electrical means D. Rodrigues, N. Sommer and K. Everschor-Sitte Physical Review B 101, 224410 (2020) or arXiv:2004.07546 |
| 32. Neuromorphic Spintronics J. Grollier, D. Querlioz, K. Y. Camsari, K. Everschor-Sitte, S. Fukami, M. D. Stiles Nature Electronics 3, 360 (2020) or arXiv:2007.06092 |
|
31. Berry curvature for magnetoelastic waves A. Okamoto, S. Murakami and K. Everschor-Sitte Physical Review B 101, 064424 (2020) |
| 30. Stability and dynamics of in-plane skyrmions in collinear ferromagnets R. Zarzuela, VK Bharadwaj, K-W Kim, J. Sinova, K. Everschor-Sitte Physical Review B 101, 054405 (2020) or arXiv:1910.00987 |
|
29. The role of temperature and drive current in skyrmion dynamics K. Litzius, J. Leliaert, P. Bassirian, D. Rodrigues, S. Kromin, I. Lemesh, J. Zazvorka, K-J. Lee, J. Mulkers, N. Kerber, D. Heinze, N. Keil, R. M. Reeve, M. Weigand, B. Van Waeyenberge, G. Schütz, K. Everschor-Sitte, G. S. D. Beach and M. Kläui Nature Electronics 3, 30 (2020) |
| *28. Chiral excitations of magnetic droplet solitons driven by their own inertia M. Mohseni, D. Rodrigues, M. Saghafi, S. Chung, M. Ahlberg, H. F. Yazdi, Q. Wang, S. A. H. Banuazizi, P. Pirro, J. Åkerman and M. Mohseni Physical Review B 101, 020417(R) (2020) or arXiv:1905.01085 |
Publications 2019
|
27. Topological characterization of classical waves: The topological origin of magnetostatic surface spin waves K. Yamamoto, G. C. Thiang, P. Pirro, K-W. Kim, K. Everschor-Sitte and E. Saitoh Physical Review Letters 122, 217201 (2019) or arxiv:1905.07909 |
| 26. Spin eigen-excitations of an antiferromagnetic skyrmion V. P. Kravchuk, O. Gomonay, D. D. Sheka, D. Rodrigues, K. Everschor-Sitte, J. Sinova, J. van den Brink, Y. Gaididei Physical Review B 99, 184429 (2019) or arxiv:1902.09846 |
| 25. Thermal skyrmion diffusion used in a reshuffler device J. Zázvorka, F. Jakobs, D. Heinze, N. Keil, S. Kromin, S. Jaiswal, K. Litzius, G. Jakob, P. Virnau, D. Pinna, K. Everschor-Sitte, A. Donges, U. Nowak, M. Kläui Nature Nanotechnology 14, 658–661 (2019) or arxiv:1805.05924 |
| 24. Unidirectional Magnon-Driven Domain Wall Motion due to the Interfacial Dzyaloshinskii-Moriya Interaction K-W. Kim, S-W. Lee, J-H. Moon, G. Go, A. Manchon, H-W. Lee, K. Everschor-Sitte, and K-J. Lee Physical Review Letters 122, 147202 (2019) or arxiv:1803.10776 |
| 23. Twists in Ferromagnetic Monolayers With Trigonal Prismatic Symmetry K. Hals, K. Everschor-Sitte Physical Review B 99, 104422 (2019) or arxiv:1812.07361 |
| 22. Characterizing breathing dynamics of magnetic skyrmions and antiskyrmions with the Hamiltonian formalism B. F. McKeever, D. Rodrigues, D. Pinna, Ar. Abanov, Jairo Sinova and K. Everschor-Sitte Physical Review B 99, 054430 (2019) or arXiv:1811.1811.09949
Editor's Suggestion. |
Publications 2018
| 21. Perspective: Magnetic Skyrmions - overview of recent progress in an active research field K. Everschor-Sitte, J. Masell, R. M. Reeve and M. Kläui Journal of Applied Physics 124, 240901 (2018) Featured article & cover image Featured as cover image of Jorunal of Applied Physics Volume 124, Number 24. |
| 20. Let’s twist again K. Everschor-Sitte Physik Journal 09/2018, page:49
DPG prize winner article Figure created by Marco Armbruster. |
| 19. Effect of boundary-induced chirality on magnetic textures in thin films J. Mulkers, K. Hals, J. Leliaert, M. V. Milošević, B. Van Waeyenberge, K. Everschor-Sitte Physical Review B 98, 064429 (2018) or arXiv:1805.11110 Editor's Suggestion. |
| 18. Asymmetric skyrmion Hall effect in systems with a hybrid Dzyaloshinskii-Moriya interaction K-W. Kim, K-W. Moon, N. Kerber, J. Nothhelfer, K. Everschor-Sitte Physical Review B 97, 224427 (2018) or arXiv:1802.07327 |
| 17. Painting and erasing skyrmion K. Everschor-Sitte, J. Sinova, Ar. Abanov Nature Electronics 1, 266–267 (2018)
Figure created by K. Everschor and M. Armbruster |
| 16. Effective description of domain wall strings D. Rodrigues, Ar. Abanov, J. Sinova, K. Everschor-Sitte Physical Review B 97, 134414 (2018) or arXiv:1712.09918 |
| 15. Roles of chiral renormalization on magnetization dynamics in chiral magnets K-W. Kim, H-W. Lee, K-J. Lee, K. Everschor-Sitte, O. Gomonay, J. Sinova Physical Review B 97, 104402(R) (2018) or arXiv:1803.00017 |
| 14. Potential implementation of Reservoir Computing models based on magnetic skyrmions G. Bourianoff, D. Pinna, M. Sitte, K. Everschor-Sitte AIP Advances 8, 055602 (2018) or arXiv:1709.08911 |
| 13. A magnetic skyrmion as a non-linear resistive element - a potential building block for reservoir computing D. Prychynenko, M. Sitte, K. Litzius, B. Krüger, G. Bourianoff, M. Kläui, J. Sinova, K. Everschor-Sitte Physical Review Applied 9, 014034 (2018) or arXiv:1702.04298 |
Publications 2017
|
12. New Boundary-Driven Twist States in Systems with Broken Spatial Inversion Symmetry K. Hals, K. Everschor-Sitte Physical Review Letters 119, 127203 (2017) or arXiv:1706.09026 |
|
11. Skyrmion production on demand by homogeneous DC currents K. Everschor-Sitte, M. Sitte, T. Valet, A. Abanov and J. Sinova New Journal of Physics 19, 092001 (2017) or arXiv:1610.08313 Featured in the Highlights of 2017 issue of the New Journal of Physics. |
|
10. Spin texture motion in antiferromagnetic and ferromagnetic nanowires D. Rodrigues, K. Everschor-Sitte, O. A. Tretiakov, J. Sinova, A. Abanov Physical Review B 95, 174408 (2017) or arXiv:1702.06274 |
Publications 2010-2016
|
9. Current-driven periodic domain wall creation in ferromagnetic nanowires M. Sitte, K. Everschor-Sitte, T. Valet, D. Rodrigues, J. Sinova and A. Abanov Physical Review B 94, 064422 (2016) or arXiv:1607.03336 |
|
8. Interaction Correction to the Magneto-Electric Polarizability of Z2 Topological Insulators K. Everschor-Sitte, M. Sitte and A. H. MacDonald Physical Review B 92, 245118 (2015) or arXiv:1508.03213
Editor's Suggestion. |
|
7. Half-metallic magnetism and the search for better spin valves K. Everschor-Sitte, M. Sitte and A. H. MacDonald Journal of Applied Physics 116, 083906 (2014) or arXiv:1407.5240 |
|
6. Real-space Berry phases: Skyrmion soccer K. Everschor-Sitte and M. Sitte Journal of Applied Physics 115, 172602 (2014), FEATURED ARTICLE or arXiv:1405.0987
Issue cover figure, of Journal of Applied Physics 115. |
|
5. Rotating skyrmion lattices by spin torques and field or temperature gradients K. Everschor, M. Garst, B. Binz, F. Jonietz, S. Mühlbauer, C. Pfleiderer and A. Rosch Physical Review B 86, 054432 (2012) or arXiv:1204.5051 |
|
4. Emergent electrodynamics of skyrmions in a chiral magnet T. Schulz, R. Ritz, A. Bauer, M. Halder, M. Wagner, C. Franz, C. Pfleiderer, K. Everschor, M. Garst and A. Rosch Nature Physics 8, 301-304 (2012) or arXiv:1202.1176 |
|
3. Long-range crystalline nature of the skyrmion lattice in MnSi T. Adams, S. Mühlbauer, C. Pfleiderer, F. Jonietz, A. Bauer, A. Neubauer, R. Georgii, P. Böni, U. Keiderling, K. Everschor, M. Garst, and A. Rosch Physical Review Letters 107, 217206 (2011) or arXiv:1107.0993 |
|
2. Current-induced rotational torques in the skyrmion lattice phase of chiral magnets K. Everschor, M. Garst, R. A. Duine and A. Rosch Physical Review B 84, 064401 (2011) or arXiv:1103.5548 |
|
1. Spin Transfer Torques in MnSi at Ultralow Current Densities F. Jonietz, S. Mühlbauer, C. Pfleiderer, A. Neubauer, W. Münzer, A. Bauer, T. Adams, R. Georgii, P. Böni, R. A. Duine, K. Everschor, M. Garst and A. Rosch Science 330, 1648 (2010) or arXiv:1012.3496 |
PhD Theses
|
Creation and Manipulation of Topological Magnetic Textures in Chiral and Frustrated Magnets Ross Knapman Johannes Gutenberg University Mainz February 2024 |
|
Topological excitations in magnets, superconductors, and magnet-superconductor heterostructures
Jonas Nothhelfer
Johannes Gutenberg University Mainz
July 2023
|
|
Magnetic skyrmions in in-plane magnets: Venkata Krishna Bharadwaj Johannes Gutenberg University Mainz June 2023 |
Current-Induced Dynamics of Chiral Magnetic Structures: Skyrmions, Emergent Electrodynamics and Spin-Transfer Torques Karin Everschor University of Cologne June 2012 |
Master and Diploma Theses
|
Numerical simulation of quantum operations with Majorana bound states Stephan Kessler Johannes Gutenberg-University Mainz March 2022 |
|
Study of emergent topological magnetic defects by means of neural networks Lukas Holzbeck Johannes Gutenberg-University Mainz March 2022 |
|
Interface Effects in Chiral Magnetic Structures and Antiferromagnetic-Ferromagnetic Heterosystems Tobias Marcel Wagner Johannes Gutenberg-University Mainz August 2021 |
|
Domain wall injection in antiferromagnets Raphael Kromin Johannes Gutenberg-University Mainz June 2021 |
|
Antiferromagnetic Domains in presence of Magnetoelastic Interactions Bennet Karetta Johannes Gutenberg-University Mainz May 2021 |
|
Thermally Driven Inversion of Nanomagnetic Logic Timo Pulch Johannes Gutenberg-University Mainz April 2020 |
|
Critical domain wall behavior in chiral magnetic nanowires induced by spin polarized currents Nils Sommer Johannes Gutenberg-University Mainz September 2019 |
|
Localized Majorana modes in superconductor-ferromagnet heterostructures - A path towards topological quantum computation Jonas Nothhelfer Johannes Gutenberg-University Mainz June 2019 (last correction)
|
|
Manipulating Magnetic Structures in Chiral Metals by Currents Karin Everschor University of Cologne June 2009 |
|
Asymptotisches Verhalten für eine Familie nichtlinearer, elliptischer Differentialgleichungen im Minkowski Raum Karin Everschor University of Cologne July 2008 |
Bachelor Theses
|
Motion of anisotropic Björn Dörschel University of Duisburg-Essen June 2023 |
|
Influence of Temperature on Tayfun Sahin University of Duisburg-Essen April 2023 |
|
Current-induced creation of domain walls in synthetic antiferromagnets
University of Duisburg-Essen August 2022 |
|
From Skyrmions to Hopfions
Johannes Gutenberg-University Mainz May 2022 |
|
Composite Topological Structures in Superconductor-Ferromagnet Heterostructures Lucas Görzen Johannes Gutenberg-University Mainz March 2021 |
|
Analyse der lokalen Zustandsdichte der Kitaev-Kette
Johannes Gutenberg-University Mainz August 2019 |
|
Pattern recognition in the 2D-Ising model with neural networks Lukas Holzbeck Johannes Gutenberg-University Mainz July 2019 |
|
Stromgetriebene Domänenwanderzeugung in ferromagnetischen Nanodrähten Nils Sommer Johannes Gutenberg-University Mainz May 2017 |